TashHN, a Theileria annulata encoded protein transported to the host nucleus displays an association with attenuation of parasite differentiation.

The intracellular apicomplexan parasite, Theileria annulata, manipulates its bovine host cell by over-riding the cells natural apoptotic response and inducing proliferation of the infected leukocyte. We have recently identified a T. annulata encoded family of polypeptides (TashATs) with characteristics that indicate that they are involved in control of host cell gene expression. Here we present data on another member of this family, TashHN, showing that it is located to the parasite and host cell nucleus. Immunoblot analysis demonstrated that, unlike TashAT2 and 3, TashHN displays three forms, the largest of which is enriched in the host nuclear fraction and appears to be phosphorylated. Northern and 5 prime race analyses identified multiple TashHN RNA species in infected cells that have retained the ability to differentiate. These transcripts showed subtly different kinetics, but all decreased during differentiation to the merozite, and two showed reduced levels prior to down-regulation of the other TashATs. In addition, analyses of multiple cell lines that have become severely attenuated in their potential to differentiate, indicated a substantial increase in TashHN expression, with host nuclear reactivity particularly enhanced.

Influence of an asparagine to lysine mutation at amino acid 3516 of apolipoprotein B on low-density lipoprotein receptor binding.

BACKGROUND: Three mutations in the apolipoprotein B (apoB) gene have previously been established as important causes of impaired receptor binding of LDL and, hence, Familial Defective Apolipoprotein B 100 (FDB). Previously, undescribed mutations were sought. METHODS: Using denaturing gradient gel electrophoresis for mutation detection, DNA from 1852 new patients was examined. RESULTS: A previously undiscovered mutation was found in codon 3516, located between known FDB mutations at codons 3500 and 3531. The new mutation introduces a positively charged amino acid-lysine-while other FDB mutations remove a positively charged residue, arginine. The phenotype was intriguing, LDL derived from N3516K heterozygotes allowed only poor growth of an LDL cholesterol-dependent cell line. ApoB-100-specific antibody MB47 bound to LDL from N3516K heterozygotes with increased affinity indicating a probable conformational change caused by the substitution. In contrast to these results, a competitive displacement assay in fibroblasts showed normal (or better) binding affinity to LDL receptors and using dynamic laser scattering no preferential accumulation of 3516K LDL particles in plasma was found. CONCLUSION: Discovery of the mutation and characterisation of N3516K LDL reveals another naturally occurring apoB mutation that influences conformation of LDL apoB and its interaction with the LDL receptor.